/**************************************************************************************************

    Phyplus Microelectronics Limited confidential and proprietary.
    All rights reserved.

    IMPORTANT: All rights of this software belong to Phyplus Microelectronics
    Limited ("Phyplus"). Your use of this Software is limited to those
    specific rights granted under  the terms of the business contract, the
    confidential agreement, the non-disclosure agreement and any other forms
    of agreements as a customer or a partner of Phyplus. You may not use this
    Software unless you agree to abide by the terms of these agreements.
    You acknowledge that the Software may not be modified, copied,
    distributed or disclosed unless embedded on a Phyplus Bluetooth Low Energy
    (BLE) integrated circuit, either as a product or is integrated into your
    products.  Other than for the aforementioned purposes, you may not use,
    reproduce, copy, prepare derivative works of, modify, distribute, perform,
    display or sell this Software and/or its documentation for any purposes.

    YOU FURTHER ACKNOWLEDGE AND AGREE THAT THE SOFTWARE AND DOCUMENTATION ARE
    PROVIDED AS IS WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESS OR IMPLIED,
    INCLUDING WITHOUT LIMITATION, ANY WARRANTY OF MERCHANTABILITY, TITLE,
    NON-INFRINGEMENT AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL
    PHYPLUS OR ITS SUBSIDIARIES BE LIABLE OR OBLIGATED UNDER CONTRACT,
    NEGLIGENCE, STRICT LIABILITY, CONTRIBUTION, BREACH OF WARRANTY, OR OTHER
    LEGAL EQUITABLE THEORY ANY DIRECT OR INDIRECT DAMAGES OR EXPENSES
    INCLUDING BUT NOT LIMITED TO ANY INCIDENTAL, SPECIAL, INDIRECT, PUNITIVE
    OR CONSEQUENTIAL DAMAGES, LOST PROFITS OR LOST DATA, COST OF PROCUREMENT
    OF SUBSTITUTE GOODS, TECHNOLOGY, SERVICES, OR ANY CLAIMS BY THIRD PARTIES
    (INCLUDING BUT NOT LIMITED TO ANY DEFENSE THEREOF), OR OTHER SIMILAR COSTS.

**************************************************************************************************/



/*********************************************************************
    INCLUDES
*/

#include "bcomdef.h"
#include "OSAL.h"
#include "OSAL_PwrMgr.h"
#include "OSAL_bufmgr.h"
#include "gatt.h"
#include "ll.h"
#include "ll_common.h"
#include "hci.h"
#include "gapgattserver.h"
#include "gattservapp.h"
#include "central.h"
#include "gapbondmgr.h"
#include "simpleGATTprofile_ota.h"
#include "simpleBLECentral.h"
#include "timer.h"
#include "log.h"
#include "ll_def.h"
#include "global_config.h"
#include "flash.h"
#include "rflib.h"
#include "clock.h"
#include "OSAL_Clock.h"
/*********************************************************************
    MACROS
*/


#define SBC_SBP_TEST_MODE_AUTO_RESET         (1)
#define SBC_SBP_TEST_MODE_WTNSP_NOTIFY       (2)
#define SBC_SBP_TEST_MODE_AUTO_DISCONNET     (3)

#define SBC_SBP_TEST_MODE_CFG                SBC_SBP_TEST_MODE_WTNSP_NOTIFY //SBC_SBP_TEST_MODE_WTNSP_NOTIFY
#define SBC_SET_ERASE_GAPBOND                subWriteReg(&AP_AON->SLEEP_R[3],0,0,1)
#define SBC_CLR_ERASE_GAPBOND                subWriteReg(&AP_AON->SLEEP_R[3],0,0,0)
#define SBC_IS_ERASE_GAPBOND                 (AP_AON->SLEEP_R[3] & 0x01)



// Length of bd addr as a string
#define B_ADDR_STR_LEN                        15

/*********************************************************************
    CONSTANTS
*/

// Maximum number of scan responses
#define DEFAULT_MAX_SCAN_RES                  30

// Scan duration in ms
#define DEFAULT_SCAN_DURATION                 5000

// Discovey mode (limited, general, all)
#define DEFAULT_DISCOVERY_MODE                DEVDISC_MODE_ALL

// TRUE to use active scan
#define DEFAULT_DISCOVERY_ACTIVE_SCAN         TRUE

// TRUE to use white list during discovery
#define DEFAULT_DISCOVERY_WHITE_LIST          FALSE

// TRUE to use high scan duty cycle when creating link
#define DEFAULT_LINK_HIGH_DUTY_CYCLE          FALSE

// TRUE to use white list when creating link
#define DEFAULT_LINK_WHITE_LIST               FALSE

// Default RSSI polling period in ms
#define DEFAULT_RSSI_PERIOD                   1000

// Whether to enable automatic parameter update request when a connection is formed
#define DEFAULT_ENABLE_UPDATE_REQUEST         FALSE

// Minimum connection interval (units of 1.25ms) if automatic parameter update request is enabled
#define DEFAULT_UPDATE_MIN_CONN_INTERVAL      10

// Maximum connection interval (units of 1.25ms) if automatic parameter update request is enabled
#define DEFAULT_UPDATE_MAX_CONN_INTERVAL      300

// Slave latency to use if automatic parameter update request is enabled
#define DEFAULT_UPDATE_SLAVE_LATENCY          0

// Supervision timeout value (units of 10ms) if automatic parameter update request is enabled
#define DEFAULT_UPDATE_CONN_TIMEOUT           500

// Default passcode
#define DEFAULT_PASSCODE                      123456//19655

// Default GAP pairing mode
#define DEFAULT_PAIRING_MODE                  GAPBOND_PAIRING_MODE_NO_PAIRING//GAPBOND_PAIRING_MODE_INITIATE//GAPBOND_PAIRING_MODE_WAIT_FOR_REQ

// Default MITM mode (TRUE to require passcode or OOB when pairing)
#define DEFAULT_MITM_MODE                     FALSE

// Default bonding mode, TRUE to bond
#define DEFAULT_BONDING_MODE                  FALSE//TRUE //TRUE

// Default GAP bonding I/O capabilities
#define DEFAULT_IO_CAPABILITIES               GAPBOND_IO_CAP_NO_INPUT_NO_OUTPUT//GAPBOND_IO_CAP_DISPLAY_ONLY

// Default service discovery timer delay in ms
#define DEFAULT_SVC_DISCOVERY_DELAY           1000

// TRUE to filter discovery results on desired service UUID
#define DEFAULT_DEV_DISC_BY_SVC_UUID          TRUE

// Application states
enum
{
    BLE_STATE_IDLE,
    BLE_STATE_CONNECTING,
    BLE_STATE_CONNECTED,
    BLE_STATE_DISCONNECTING
};

// Discovery states
enum
{
    BLE_DISC_STATE_IDLE,                // Idle
    BLE_DISC_STATE_SVC,                 // Service discovery
    BLE_DISC_STATE_CHAR                 // Characteristic discovery
};

// GapBond states
enum
{
    BLE_GapBond_IDLE,                   // Idle
    BLE_GapBond_Starting,
    BLE_GapBond_Paring_OK,
    BLE_GapBond_Paring_FAIL,
    BLE_GapBond_Bond_OK,
    BLE_GapBond_Bond_FAIL
};

// add by zhufei.zhang 2018.10.25
#define PRIMARY_SERVICE_RES         10//0xFFFF
#define Characteristic_LEN                  20
#define Characteristic_ValueIndex       1
#define Characteristic_NotifyIndex  2
#define Central_Test_ToDoList               6
//#define Build_TESTVECTOR 0
/*********************************************************************
    TYPEDEFS
*/
// add by zhufei.zhang 2018.10.25
// Advertising and Scan Response Data
typedef struct
{
    uint8_t     Type;
    uint8_t     Len;
    uint8_t     Value[ATT_UUID_SIZE];
} SimpleADVServiceUUIDs;
typedef struct
{
    uint8_t     Type;
    uint8_t     Length;
    uint8_t     Value[31];      // Max PDU = 31
} SimpleADVLoaclName;
typedef struct
{
    uint16_t    ConnMin;
    uint16_t    ConnMax;
} SimpleADVSlaveInterval;
typedef struct
{
    uint8_t     Type;
    uint8_t     Len;
    uint8_t     Value[ATT_UUID_SIZE];
} SimpleADVServiceSolicitation;
typedef struct
{
    uint8_t     Length;
    uint8_t     Value[31];      // Max PDU = 31
} SimpleADVServiceDATA;
typedef struct
{
    uint8_t     Length;
    uint8_t     Value[31];      // Max PDU = 31
} SimpleADVManufactureDATA;
typedef struct
{
    uint8_t                                                 AddrType;
    uint8_t                                                 addr[B_ADDR_LEN];
    bool                                                        RSP_ReadFlag;
    int8                                                        rssi;
    int8                                                        TxPower;
    uint8_t                                                 Flags;
    SimpleADVServiceUUIDs                   UUID;
    SimpleADVLoaclName                          LocalName;
    uint8_t                                                 OOB_Data;
    uint8_t                                                 SM_TK_Value;
    SimpleADVSlaveInterval                  ConnIntervalRange;
    SimpleADVServiceSolicitation        ServiceSolicitation;
    SimpleADVServiceDATA                        ServiceData;
    SimpleADVManufactureDATA                ManufactureData;
} SimpleClientADV_ScanData;

// Service and Characteristic
typedef struct
{
    uint16_t  charStartHandle;
    uint16_t  charUuid;
    uint8_t     UUID_Len;
    uint8_t     UUID[ATT_UUID_SIZE];
    uint8_t   Properties;
} SimpleCharacteristic;
typedef struct
{
    // Service Info , User Don't Care
    uint8_t     Attribute_Data_Len;
    uint16_t    Attribute_StartHandle;
    uint16_t    End_Group_Handle;
    // User Care
    // Caculate UUID Len
    uint8_t     UUID_Len;
    uint8_t     UUID[ATT_UUID_SIZE];
    // Characteristic
    uint8_t     CharacNum;
    SimpleCharacteristic Characteristic[Characteristic_LEN];
} SimpleGATTReadGroupRsp;
typedef struct
{
    // Primary Service Num
    uint8_t                                 PrimaryServiceCnt;
    // Primary Service Characteristic Index
    uint8_t                                 PrimaryCharacIndex;
    // Characteristic Find Index
    uint8_t                                 CharacFindIndex;
    SimpleGATTReadGroupRsp  ServerGroupService[PRIMARY_SERVICE_RES];
} SimpleGattScanServer;

/*********************************************************************
    GLOBAL VARIABLES
*/
perStatsByChan_t g_perStatsByChanTest;
/*********************************************************************
    EXTERNAL VARIABLES
*/
extern uint32 g_osal_mem_allo_cnt;
extern uint32 g_osal_mem_free_cnt;
extern l2capSARDbugCnt_t g_sarDbgCnt;
extern llGlobalStatistics_t g_pmCounters;
/*********************************************************************
    EXTERNAL FUNCTIONS
*/

/*********************************************************************
    LOCAL VARIABLES
*/

// Task ID for internal task/event processing
static uint8 simpleBLETaskId;

// GAP GATT Attributes
static const uint8 simpleBLEDeviceName[GAP_DEVICE_NAME_LEN] = "Simple BLE Central";
static const uint8 peerDeviceName[GAP_DEVICE_NAME_LEN]      = "Find Magic";

// Number of scan results and scan result index
static uint8 simpleBLEScanRes;
volatile static uint8 simpleBLEScanIdx;

// Scanning state
volatile static uint8 simpleBLEScanning = FALSE;

// RSSI polling state
volatile static uint8 simpleBLERssi = FALSE;

// Connection handle of current connection
static uint16 simpleBLEConnHandle = GAP_CONNHANDLE_INIT;

// Application state
static uint8 simpleBLEState = BLE_STATE_IDLE;

// Discovery state
static uint8 simpleBLEDiscState = BLE_DISC_STATE_IDLE;

//GapBondmgr state
static uint8 simpleBleGapBondState = BLE_GapBond_IDLE;//

static UTCTime s_linkActiveDuration = 0;

//// Discovered service start and end handle
//static uint16 simpleBLESvcStartHdl = 0;
//static uint16 simpleBLESvcEndHdl = 0;

//// Discovered characteristic handle
//static uint16 simpleBLECharHdl = 0;

// Value to write
volatile static uint8 simpleBLECharVal = 0;

//// Value read/write toggle
//static bool simpleBLEDoWrite = FALSE;

//// GATT read/write procedure state
//static bool simpleBLEProcedureInProgress = FALSE;
static bool findDevByName=FALSE;
static gapDevRec_t simpleBlePeerTarget;
//static bool simBlePeerConnFlg=FALSE;
volatile static uint8_t advDataFilterCnt;
static uint16 connIntv = 30;
static uint16 connLatency = 4;
static uint16 connTimeOut = 200;
volatile static uint32 connEventCnt = 0;

static uint16 dleTxOctets=251;
static uint16 dleTxTime=2120;

static uint8 phyModeCtrl=0x01;

static uint16 dleTxOctetsSlave=251;
volatile static uint16 dleTxTimeSlave=2120;

static uint8 phyModeCtrlSlave=0x01;

// add by zhufei.zhang 2018.10.25
static SimpleGattScanServer             SimpleClientInfo;
static SimpleClientADV_ScanData     simpleBLEDevList[DEFAULT_MAX_SCAN_RES];

#define RWN_TEST_VAL_LEN            200
static uint8 rwnTestVal[RWN_TEST_VAL_LEN];
static uint8_t rwnTestCnt=0;
static uint8 slaCtrlCmd=0;

static uint8 mtu = 247;

//===================================================================
//mtu:      ATT MTU Size [23 - 247]
//DLE:      date length extion, pdu length in octect [27-255]
//phy:      PHY MODE 1-> BLE_1M, 2->BLE_2M
//connIntv: ble connection interval, unit 5ms
//notfIntv: slave notify interval, 0x80 -> notfiy at connection event end,
//          other value, notify interval uint is notfIntv[6:0]*5ms
//notfPkt:  notifty packet number for each notify interval
//testTime: test vector mode contrl counter, whenc testTime=mstWtCnt,
//          shift to next test vector in the table

enum
{
    NULL_TO_DO = 0x00,
    CHAN_MAP   = 0x01,
    SLA_1M,
    SLA_2M,
    SLA_ANY,
    MST_1M,
    MST_2M,
    MST_ANY,
    SLA_HCLK48_32KRC,
    SLA_HCLK48_32KXTAL,
    SLA_HCLK16_32KRC,
    SLA_HCLK16_32KXTAL,
    SLA_HCLK64_32KRC,
    SLA_HCLK64_32KXTAL,
    SLA_CHECK_PER
};

/*********************************************************************
    LOCAL FUNCTIONS
*/
static void simpleBLECentralProcessGATTMsg( gattMsgEvent_t* pMsg );
static void simpleBLECentralRssiCB( uint16 connHandle, int8  rssi );
static void simpleBLECentralEventCB( gapCentralRoleEvent_t* pEvent );
static void simpleBLECentralPasscodeCB( uint8* deviceAddr, uint16 connectionHandle,
                                        uint8 uiInputs, uint8 uiOutputs );
static void simpleBLECentralPairStateCB( uint16 connHandle, uint8 state, uint8 status );
//static void simpleBLECentral_HandleKeys( uint8 shift, uint8 keys );
static void simpleBLECentral_ProcessOSALMsg( osal_event_hdr_t* pMsg );
static void simpleBLEGATTDiscoveryEvent( gattMsgEvent_t* pMsg );
static void simpleBLECentralStartDiscoveryService( void );
//static bool simpleBLEFindSvcUuid( uint16 uuid, uint8 *pData, uint8 dataLen );
static void simpleBLEAddDeviceInfo( gapCentralRoleEvent_t* pEvent );
char* bdAddr2Str ( uint8* pAddr );
//static uint8_t simpleBLECentral_AdvDataFilterCBack(void);

// add by zhufei.zhang
static void simpleBLEAnalysisADVDATA(uint8 Index,gapDeviceInfoEvent_t* pData);
//static void simpleBLECentral_CharacteristicTest(void);
static void simpleBLECentral_ReadWriteNotifyTest(void);
static void simpleBLECentral_DiscoverDevice(void);
static void simpleBLECentral_LinkDevice(void);
extern uint32 osal_memory_statics(void);
extern uint8 llPermit_ctrl_procedure(uint16 connId);

static void simpleBLECentral_LinkDevice_Direct(uint8_t p_Type,uint8_t p_addr[]);

/*********************************************************************
    PROFILE CALLBACKS
*/

// GAP Role Callbacks
static const gapCentralRoleCB_t simpleBLERoleCB =
{
    simpleBLECentralRssiCB,       // RSSI callback
    simpleBLECentralEventCB       // Event callback
};

// Bond Manager Callbacks
static const gapBondCBs_t simpleBLEBondCB =
{
    simpleBLECentralPasscodeCB,
    simpleBLECentralPairStateCB
};

/*********************************************************************
    PUBLIC FUNCTIONS
*/
void check_PerStatsProcess(void);

/*********************************************************************
    @fn      SimpleBLECentral_Init

    @brief   Initialization function for the Simple BLE Central App Task.
            This is called during initialization and should contain
            any application specific initialization (ie. hardware
            initialization/setup, table initialization, power up
            notification).

    @param   task_id - the ID assigned by OSAL.  This ID should be
                      used to send messages and set timers.

    @return  none
*/
void SimpleBLECentral_Init( uint8 task_id )
{
    simpleBLETaskId = task_id;
    // Setup Central Profile
    {
        uint8 scanRes = DEFAULT_MAX_SCAN_RES;
        GAPCentralRole_SetParameter(GAPCENTRALROLE_MAX_SCAN_RES, sizeof(uint8), &scanRes);
    }
    // Setup GAP
    GAP_SetParamValue(TGAP_GEN_DISC_SCAN, DEFAULT_SCAN_DURATION);
    GAP_SetParamValue(TGAP_LIM_DISC_SCAN, DEFAULT_SCAN_DURATION);
    GAP_SetParamValue(TGAP_CONN_EST_INT_MIN, 20); //  * 1.25ms      // 30
    GAP_SetParamValue(TGAP_CONN_EST_INT_MAX, 20);
    GAP_SetParamValue(TGAP_CONN_EST_SUPERV_TIMEOUT, DEFAULT_UPDATE_CONN_TIMEOUT);
    GGS_SetParameter(GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, (uint8*)simpleBLEDeviceName);
    // Setup the GAP Bond Manager
    {
        uint32 passkey = DEFAULT_PASSCODE;
        uint8 pairMode = GAPBOND_PAIRING_MODE_INITIATE; //GAPBOND_PAIRING_MODE_INITIATE;//DEFAULT_PAIRING_MODE;    // GAPBOND_PAIRING_MODE_NO_PAIRING
        uint8 mitm = DEFAULT_MITM_MODE;
        uint8 ioCap = DEFAULT_IO_CAPABILITIES;
        uint8 bonding = DEFAULT_BONDING_MODE;
        GAPBondMgr_SetParameter(GAPBOND_DEFAULT_PASSCODE, sizeof(uint32), &passkey);
        GAPBondMgr_SetParameter(GAPBOND_PAIRING_MODE, sizeof(uint8), &pairMode);
        GAPBondMgr_SetParameter(GAPBOND_MITM_PROTECTION, sizeof(uint8), &mitm);
        GAPBondMgr_SetParameter(GAPBOND_IO_CAPABILITIES, sizeof(uint8), &ioCap);
        GAPBondMgr_SetParameter(GAPBOND_BONDING_ENABLED, sizeof(uint8), &bonding);
    }

    for (uint8 i = 0; i < RWN_TEST_VAL_LEN - 1; i++)
        rwnTestVal[i] = i;

    // Initialize GATT Client
    VOID GATT_InitClient();
    // Register to receive incoming ATT Indications/Notifications
    GATT_RegisterForInd(simpleBLETaskId);
    // Initialize GATT attributes
    GGS_AddService(GATT_ALL_SERVICES);         // GAP
    GATTServApp_AddService(GATT_ALL_SERVICES); // GATT attributes
    LL_PLUS_PerStats_Init(&g_perStatsByChanTest);

    if(SBC_IS_ERASE_GAPBOND)
    {
        AT_LOG("ERASE GAPBOND Flag is Set, Erase all gapbond record\n");
        GAPBondMgr_SetParameter(GAPBOND_ERASE_ALLBONDS,0,NULL);
        SBC_CLR_ERASE_GAPBOND;
    }

    // Setup a delayed profile startup
    osal_set_event(simpleBLETaskId, START_DEVICE_EVT);
    AT_LOG("[PEER ADDR]");

//    for (int i = 0; i < 6; i++)
//    {
//        simpleBlePeerTarget.addr[i] = *(volatile uint8_t*)(0x11004008 + i);
//        AT_LOG("%02x", simpleBlePeerTarget.addr[i]);
//    }
		
		simpleBlePeerTarget.addr[0] = 0X66,
		simpleBlePeerTarget.addr[1] = 0X65,
		simpleBlePeerTarget.addr[2] = 0X65,
		simpleBlePeerTarget.addr[3] = 0X56,
		simpleBlePeerTarget.addr[4] = 0X56,
		simpleBlePeerTarget.addr[5] = 0X78,

    AT_LOG("\n");

    if(simpleBlePeerTarget.addr[0]==0xFF)
    {
        AT_LOG("[PEER NAME] L=%d ",osal_strlen((char*)peerDeviceName));
        AT_LOG("%s",peerDeviceName);
        AT_LOG("\n");
        findDevByName=TRUE;
    }
    else
    {
        HCI_LE_AddWhiteListCmd(LL_DEV_ADDR_TYPE_PUBLIC, simpleBlePeerTarget.addr);
        /* code */
    }
}

/*********************************************************************
    @fn      SimpleBLECentral_ProcessEvent

    @brief   Simple BLE Central Application Task event processor.  This function
            is called to process all events for the task.  Events
            include timers, messages and any other user defined events.

    @param   task_id  - The OSAL assigned task ID.
    @param   events - events to process.  This is a bit map and can
                     contain more than one event.

    @return  events not processed
*/
uint16 SimpleBLECentral_ProcessEvent(uint8 task_id, uint16 events)
{
    VOID task_id; // OSAL required parameter that isn't used in this function

    if (events & SYS_EVENT_MSG)
    {
        uint8* pMsg;

        if ((pMsg = osal_msg_receive(simpleBLETaskId)) != NULL)
        {
            simpleBLECentral_ProcessOSALMsg((osal_event_hdr_t*)pMsg);
            // Release the OSAL message
            VOID osal_msg_deallocate(pMsg);
        }

        // return unprocessed events
        return (events ^ SYS_EVENT_MSG);
    }

    if (events & START_DEVICE_EVT)
    {
        // Start the Device
        VOID GAPCentralRole_StartDevice((gapCentralRoleCB_t*)&simpleBLERoleCB);
        // Register with bond manager after starting device
        GAPBondMgr_Register((gapBondCBs_t*)&simpleBLEBondCB);
        return (events ^ START_DEVICE_EVT);
    }

    if (events & CENTRAL_INIT_DONE_EVT)
    {
        LOG("BLE as central Init Done \r\n");

        if(findDevByName==TRUE)
        {
            LOG("find by name,so discover now....");
            simpleBLECentral_DiscoverDevice();
        }
        else
        {
            LOG("find by mac,so connect now....");
            simpleBLECentral_LinkDevice_Direct(ADDRTYPE_PUBLIC,simpleBlePeerTarget.addr);
        }

        return (events ^ CENTRAL_INIT_DONE_EVT);
    }

    if (events & CENTRAL_DISCOVER_DEVDONE_EVT)
    {
        LOG("CENTRAL_DISCOVER_DEVDONE_EVT \n");
        simpleBLECentral_LinkDevice();
        return (events ^ CENTRAL_DISCOVER_DEVDONE_EVT);
    }

    if (events & START_DISCOVERY_SERVICE_EVT)
    {
        if(simpleBleGapBondState==BLE_GapBond_Starting)
        {
            LOG("SMP State[%d]  Pending SDP\n",simpleBleGapBondState);
            osal_start_timerEx(simpleBLETaskId,START_DISCOVERY_SERVICE_EVT,1000);
        }
        else
        {
            simpleBLECentralStartDiscoveryService();
        }

        return (events ^ START_DISCOVERY_SERVICE_EVT);
    }

    // add by zhufei.zhang
    if (events & START_CHAR_DATA_TEST)
    {
        //simpleBLECentral_CharacteristicTest();
        simpleBLECentral_ReadWriteNotifyTest();
        return (events ^ START_CHAR_DATA_TEST);
    }

    if (events & SBC_CANCEL_CONN)
    {
        if (simpleBLEState != BLE_STATE_CONNECTED) // not connected
        {
            GAPCentralRole_TerminateLink(simpleBLEConnHandle);
            LOG("Establish Link Time Out.\r\n");
        }

        return (events ^ SBC_CANCEL_CONN);
    }

    if (events & SBC_TERMINATED_CONN)
    {
        if (simpleBLEState == BLE_STATE_CONNECTED) // not connected
        {
            GAPCentralRole_TerminateLink(simpleBLEConnHandle);
        }

        LOG("Terminated Link .s%d d%d\r\n", simpleBLEState, simpleBLEConnHandle);
        return (events ^ SBC_TERMINATED_CONN);
    }

    if (events & UPD_CHAN_MAP_EVENT)
    {
        uint8 chanMap[5] = {0xFF, 0xFF, 0xFF, 0xFF, 0x1F};

        if (simpleBLEConnHandle != GAP_CONNHANDLE_INIT )
        {
            if(llPermit_ctrl_procedure(simpleBLEConnHandle))
            {
                HCI_LE_SetHostChanClassificationCmd(chanMap);
                AT_LOG("CHAN MAP\r\n");
            }
            else
                osal_start_timerEx(simpleBLETaskId,UPD_CHAN_MAP_EVENT,500);
        }

        return (events ^ UPD_CHAN_MAP_EVENT);
    }

    if (events & UPD_CONN_PARAM)
    {
        if (simpleBLEConnHandle != GAP_CONNHANDLE_INIT)
        {
            if(llPermit_ctrl_procedure(simpleBLEConnHandle))
            {
                connIntv = ((connIntv + DEFAULT_UPDATE_MIN_CONN_INTERVAL) % DEFAULT_UPDATE_MAX_CONN_INTERVAL);
                connLatency = (connTimeOut / (connIntv << 2));
                AT_LOG("UPD[ %2d %2d %2d %2d]\r\n", connIntv, connIntv, connLatency, connTimeOut);
                GAPCentralRole_UpdateLink(simpleBLEConnHandle, connIntv, connIntv, connLatency, connTimeOut);
            }
            else
                osal_start_timerEx(simpleBLETaskId,UPD_CONN_PARAM,500);
        }

        return (events ^ UPD_CONN_PARAM);
    }

    if (events & UPD_DATA_LENGTH_EVT)
    {
        if (simpleBLEConnHandle != GAP_CONNHANDLE_INIT)
        {
            if(llPermit_ctrl_procedure(simpleBLEConnHandle))
            {
                HCI_LE_SetDataLengthCmd(simpleBLEConnHandle, dleTxOctets, dleTxTime);
                AT_LOG("DLE[ %2d %2d ]\r\n", dleTxOctets, dleTxTime);
            }
            else
                osal_start_timerEx(simpleBLETaskId,UPD_DATA_LENGTH_EVT,500);
        }

        return (events ^ UPD_DATA_LENGTH_EVT);
    }

    if (events & UPD_PHY_MODE_EVT)
    {
        if (simpleBLEConnHandle != GAP_CONNHANDLE_INIT)
        {
            if(llPermit_ctrl_procedure(simpleBLEConnHandle))
            {
                uint8 allPhy = 0x00;
                uint8 txPhy = phyModeCtrl;
                uint8 rxPhy = phyModeCtrl;
                uint16 phyOption = 0x00;
                HCI_LE_SetPhyMode(simpleBLEConnHandle, allPhy, txPhy, rxPhy, phyOption);
                AT_LOG("PHY[ %2d %2d %2d]\r\n", allPhy, txPhy, rxPhy);
            }
            else
                osal_start_timerEx(simpleBLETaskId,UPD_PHY_MODE_EVT,500);
        }

        return (events ^ UPD_PHY_MODE_EVT);
    }

    if (events & SLA_DATA_LENGTH_EVT)
    {
        if (simpleBLEConnHandle != GAP_CONNHANDLE_INIT)
        {
            if(llPermit_ctrl_procedure(simpleBLEConnHandle))
            {
                attWriteReq_t* pReq;
                pReq = osal_mem_alloc(sizeof(attWriteReq_t));
                pReq->sig = FALSE;
                pReq->cmd = TRUE;
                pReq->handle = 0x20;
                pReq->len = 3;
                rwnTestVal[0] = 0x03;
                rwnTestVal[1] = dleTxOctetsSlave;
                rwnTestVal[2] = 0;
                osal_memcpy(pReq->value, rwnTestVal, pReq->len);
                bStatus_t status = GATT_WriteNoRsp(simpleBLEConnHandle, pReq);
                osal_mem_free(pReq);

                if (status != SUCCESS)
                {
                    osal_start_timerEx(simpleBLETaskId, SLA_DATA_LENGTH_EVT, 20);
                    //                AT_LOG("SLA DLE[ %2x ]\r\n",status);
                }
                else
                {
                    AT_LOG("SLA DLE[ %2x %2d ]\r\n", status, dleTxOctetsSlave);
                }
            }
            else
                osal_start_timerEx(simpleBLETaskId,SLA_DATA_LENGTH_EVT,500);
        }

        return (events ^ SLA_DATA_LENGTH_EVT);
    }

    if (events & SLA_PHY_MODE_EVT)
    {
        if (simpleBLEConnHandle != GAP_CONNHANDLE_INIT)
        {
            if(llPermit_ctrl_procedure(simpleBLEConnHandle))
            {
                if (slaCtrlCmd == SLA_1M || slaCtrlCmd == SLA_2M || slaCtrlCmd == SLA_ANY)
                {
                    uint8 allPhy = 0x00;
                    uint8 txPhy = phyModeCtrlSlave;
                    uint8 rxPhy = phyModeCtrlSlave;
                    //                uint16 phyOption = 0x00;
                    attWriteReq_t* pReq;
                    pReq = osal_mem_alloc(sizeof(attWriteReq_t));
                    pReq->sig = FALSE;
                    pReq->cmd = TRUE;
                    pReq->handle = 0x20;
                    pReq->len = 4;
                    rwnTestVal[0] = 0x05;
                    rwnTestVal[1] = allPhy;
                    rwnTestVal[2] = txPhy;
                    rwnTestVal[3] = 0;
                    osal_memcpy(pReq->value, rwnTestVal, pReq->len);
                    bStatus_t status = GATT_WriteNoRsp(simpleBLEConnHandle, pReq);
                    osal_mem_free(pReq);

                    if (status != SUCCESS)
                    {
                        osal_start_timerEx(simpleBLETaskId, SLA_PHY_MODE_EVT, 20);
                        //                AT_LOG("SLA PHY[ %02x ]\r\n",status);
                    }
                    else
                    {
                        AT_LOG("SLA PHY[ %02x %2d %2d %2d]\r\n", status, allPhy, txPhy, rxPhy);
                    }
                }
                else if (slaCtrlCmd == SLA_HCLK16_32KRC ||
                         slaCtrlCmd == SLA_HCLK16_32KXTAL ||
                         slaCtrlCmd == SLA_HCLK48_32KRC ||
                         slaCtrlCmd == SLA_HCLK48_32KXTAL ||
                         slaCtrlCmd == SLA_HCLK64_32KRC ||
                         slaCtrlCmd == SLA_HCLK64_32KXTAL)
                {
                    uint8 slaHclk, sla32k;
                    //slaHclk = (slaCtrlCmd == SLA_HCLK16_32KRC || slaCtrlCmd == SLA_HCLK16_32KXTAL ) ? 0x02:0x03;//16M or 48M
                    //sla32k  = (slaCtrlCmd == SLA_HCLK16_32KRC || slaCtrlCmd == SLA_HCLK48_32KRC ) ? 0x01:0x00;//RC or xtal
                    slaHclk = ( slaCtrlCmd == SLA_HCLK16_32KRC || slaCtrlCmd == SLA_HCLK16_32KXTAL) ? SYS_CLK_XTAL_16M :
                              ((slaCtrlCmd == SLA_HCLK48_32KRC || slaCtrlCmd == SLA_HCLK48_32KXTAL) ? SYS_CLK_DLL_48M : SYS_CLK_DLL_64M); //16M or 48M or 64M
                    sla32k = (slaCtrlCmd == SLA_HCLK16_32KRC ||
                              slaCtrlCmd == SLA_HCLK48_32KRC ||
                              slaCtrlCmd == SLA_HCLK64_32KRC)
                             ? 0x01
                             : 0x00; //RC or xtal
                    attWriteReq_t* pReq;
                    pReq = osal_mem_alloc(sizeof(attWriteReq_t));
                    pReq->sig = FALSE;
                    pReq->cmd = TRUE;
                    pReq->handle = 0x20;
                    pReq->len = 3;
                    rwnTestVal[0] = 0xfc;
                    rwnTestVal[1] = slaHclk;
                    rwnTestVal[2] = sla32k;
                    osal_memcpy(pReq->value, rwnTestVal, pReq->len);
                    bStatus_t status = GATT_WriteNoRsp(simpleBLEConnHandle, pReq);
                    osal_mem_free(pReq);

                    if (status != SUCCESS)
                    {
                        osal_start_timerEx(simpleBLETaskId, SLA_PHY_MODE_EVT, 20);
                        //                AT_LOG("SLA PHY[ %02x ]\r\n",status);
                    }
                    else
                    {
                        AT_LOG("SLA CLK[ %02x %2d %2d]\r\n", status, sla32k, slaHclk);
                    }
                }
                else if (slaCtrlCmd == SLA_CHECK_PER)
                {
                    attWriteReq_t* pReq;
                    pReq = osal_mem_alloc(sizeof(attWriteReq_t));
                    pReq->sig = FALSE;
                    pReq->cmd = TRUE;
                    pReq->handle = 0x20;
                    pReq->len = 1;
                    rwnTestVal[0] = 0xfd;
                    osal_memcpy(pReq->value, rwnTestVal, pReq->len);
                    bStatus_t status = GATT_WriteNoRsp(simpleBLEConnHandle, pReq);
                    osal_mem_free(pReq);

                    if (status != SUCCESS)
                    {
                        osal_start_timerEx(simpleBLETaskId, SLA_PHY_MODE_EVT, 20);
                        //                AT_LOG("SLA PHY[ %02x ]\r\n",status);
                    }
                    else
                    {
                        AT_LOG("SLA PER CHECK[ %02x]\r\n", status);
                    }
                }
            }
            else
                osal_start_timerEx(simpleBLETaskId,SLA_PHY_MODE_EVT,500);
        }

        return (events ^ SLA_PHY_MODE_EVT);
    }

    if(events & SBC_DISCOVERY_SERVICE_TO_EVT)
    {
        LOG("Sys reset by discovery timeout\n");
        hal_system_soft_reset();
        return (events ^ SBC_DISCOVERY_SERVICE_TO_EVT);
    }

    // Discard unknown events
    return 0;
}

/*********************************************************************
    @fn      simpleBLECentral_ProcessOSALMsg

    @brief   Process an incoming task message.

    @param   pMsg - message to process

    @return  none
*/
static void simpleBLECentral_ProcessOSALMsg( osal_event_hdr_t* pMsg )
{
    switch ( pMsg->event )
    {
    case GATT_MSG_EVENT:
        simpleBLECentralProcessGATTMsg( (gattMsgEvent_t*) pMsg );
        break;
    }
}

/*********************************************************************
    @fn      simpleBLECentralProcessGATTMsg

    @brief   Process GATT messages

    @return  none
*/

static void simpleBLECentralProcessGATTMsg( gattMsgEvent_t* pMsg )
{
    if ( simpleBLEState != BLE_STATE_CONNECTED )
    {
        // In case a GATT message came after a connection has dropped,
        // ignore the message
        AT_LOG("[GATT ERR] simpleBLEState= %d msg= %x\n",simpleBLEState,pMsg->method);
        return;
    }

    if(pMsg->hdr.status==bleTimeout)
    {
        AT_LOG("[GATT TO] %x\n",pMsg->method);
        return;
    }

    //AT_LOG("[GATTMsg] [%d] method 0x%02X,reqOpcode 0x%02X\n",pMsg->connHandle,pMsg->method,pMsg->msg.errorRsp.reqOpcode);
    if ( ( pMsg->method == ATT_READ_RSP ) ||
            ( ( pMsg->method == ATT_ERROR_RSP ) &&
              ( pMsg->msg.errorRsp.reqOpcode == ATT_READ_REQ ) ) )
    {
        if ( pMsg->method == ATT_ERROR_RSP )
        {
            //uint8 status = pMsg->msg.errorRsp.errCode;
            LOG( "Read Error %d\r\n", pMsg->msg.errorRsp.errCode );
        }
        else
        {
            // After a successful read, display the read value
            //uint8 valueRead = pMsg->msg.readRsp.value[0];
            LOG( "Read rsp Len : %d\r\n", pMsg->msg.readRsp.len);

            if(pMsg->msg.readRsp.len>20)
            {
                for(unsigned char i = 0; i < 10; i++)
                {
                    LOG( "0x%02X,", pMsg->msg.readRsp.value[i]);
                }

                LOG("<--->");

                for(unsigned char i = pMsg->msg.readRsp.len-10; i < pMsg->msg.readRsp.len; i++)
                {
                    LOG( "0x%02X,", pMsg->msg.readRsp.value[i]);
                }

                LOG("\r\n");
            }
            else
            {
                for(unsigned char i = 0; i < pMsg->msg.readRsp.len; i++)
                {
                    LOG( "0x%02X,", pMsg->msg.readRsp.value[i]);
                }

                LOG("\r\n");
            }
        }

        // osal_start_timerEx( simpleBLETaskId, START_CHAR_DATA_TEST,100 );
        //    simpleBLEProcedureInProgress = FALSE;
    }
    else if ( ( pMsg->method == ATT_WRITE_RSP ) ||
              ( ( pMsg->method == ATT_ERROR_RSP ) &&
                ( pMsg->msg.errorRsp.reqOpcode == ATT_WRITE_REQ ) ) )
    {
        if ( pMsg->method == ATT_ERROR_RSP )
        {
            //uint8 status = pMsg->msg.errorRsp.errCode;
            LOG( "Write Error: %d\r\n", pMsg->msg.errorRsp.errCode );
        }
        else
        {
            // After a succesful write, display the value that was written and increment value
            LOG( "Write sent: %d\r\n", simpleBLECharVal++);
        }

        //osal_start_timerEx( simpleBLETaskId, START_CHAR_DATA_TEST,100 );
        //    simpleBLEProcedureInProgress = FALSE;
    }
    else if( pMsg->method == ATT_HANDLE_VALUE_NOTI  ||
             ( ( pMsg->method == ATT_ERROR_RSP ) &&
               ( pMsg->msg.errorRsp.reqOpcode == ATT_HANDLE_VALUE_NOTI ) ) )
    {
        if ( pMsg->method == ATT_ERROR_RSP ||
                pMsg->msg.handleValueNoti.len > ATT_GetCurrentMTUSize(0)-3 )
        {
            //uint8 status = pMsg->msg.errorRsp.errCode;
            LOG( "Ntf Error: %d\r\n", pMsg->msg.errorRsp.errCode );
        }
        else
        {
            LOG( "Read Ntf Len : %d\r\n", pMsg->msg.handleValueNoti.len);

            if(pMsg->msg.handleValueNoti.len>20)
            {
                for(unsigned char i = 0; i < 10; i++)
                {
                    LOG( "0x%02X,", pMsg->msg.handleValueNoti.value[i]);
                }

                LOG("<--->");

                for(unsigned char i =  pMsg->msg.handleValueNoti.len-10; i < pMsg->msg.handleValueNoti.len; i++)
                {
                    LOG( "0x%02X,", pMsg->msg.handleValueNoti.value[i]);
                }
            }
            else
            {
                for(unsigned char i = 0; i < pMsg->msg.handleValueNoti.len; i++)
                {
                    LOG( "0x%02X,", pMsg->msg.handleValueNoti.value[i]);
                }
            }

            LOG("\r\n");
        }
    }
    else //if ( simpleBLEDiscState != BLE_DISC_STATE_IDLE )
    {
        simpleBLEGATTDiscoveryEvent( pMsg );
    }
}

/*********************************************************************
    @fn      simpleBLECentralRssiCB

    @brief   RSSI callback.

    @param   connHandle - connection handle
    @param   rssi - RSSI

    @return  none
*/
static void simpleBLECentralRssiCB( uint16 connHandle, int8 rssi )
{
    LOG( "RSSI -[%02d]dB\r\n", (255-(uint8) (-rssi)) );
}

/*********************************************************************
    @fn      simpleBLECentralEventCB

    @brief   Central event callback function.

    @param   pEvent - pointer to event structure

    @return  none
*/
static void simpleBLECentralEventCB( gapCentralRoleEvent_t* pEvent )
{
//    static int try_num = 0;
    switch ( pEvent->gap.opcode )
    {
    case GAP_DEVICE_INIT_DONE_EVENT:
    {
        // osal_set_event(simpleBLETaskId,CENTRAL_INIT_DONE_EVT);
        osal_start_timerEx(simpleBLETaskId,CENTRAL_INIT_DONE_EVT,1000);
    }
    break;

    case GAP_DEVICE_INFO_EVENT:
    {
        // only save connectable adv
        if (pEvent->deviceInfo.eventType != GAP_ADRPT_ADV_IND
                && pEvent->deviceInfo.eventType != GAP_ADRPT_ADV_DIRECT_IND
                && pEvent->deviceInfo.eventType != GAP_ADRPT_SCAN_RSP)
            break;

        simpleBLEAddDeviceInfo( pEvent );
    }
    break;

    case GAP_DEVICE_DISCOVERY_EVENT:
    {
        // discovery complete
        // initialize scan index to last device
        simpleBLEScanIdx = simpleBLEScanRes;

        for(unsigned i = 0; i < simpleBLEScanRes ; i++)
        {
            AT_LOG( "[Dev %02d/%02d] ", i+1,simpleBLEScanRes );
            AT_LOG("AdvA [T%02X] :%02X:%02X:%02X:%02X:%02X:%02X ",
                   simpleBLEDevList[i].AddrType,\
                   simpleBLEDevList[i].addr[0],\
                   simpleBLEDevList[i].addr[1],\
                   simpleBLEDevList[i].addr[2],\
                   simpleBLEDevList[i].addr[3],\
                   simpleBLEDevList[i].addr[4],\
                   simpleBLEDevList[i].addr[5]);
            AT_LOG("[AD_Flag %02X] ",simpleBLEDevList[i].Flags);

            if( simpleBLEDevList[i].LocalName.Type )
            {
                AT_LOG("[Name 0x%02X]:",simpleBLEDevList[i].LocalName.Type);
                char name[31];
                osal_memcpy(name,simpleBLEDevList[i].LocalName.Value,simpleBLEDevList[i].LocalName.Length);
                AT_LOG(name);
            }

            AT_LOG("\n");
            LOG("rssi %d\n",simpleBLEDevList[i].rssi);
            LOG("txPower %d\n",simpleBLEDevList[i].TxPower);

            if( simpleBLEDevList[i].UUID.Type )
            {
                LOG("simpleBLEDevList.UUID.Type %d\n",simpleBLEDevList[i].UUID.Type);

                for(unsigned char j=0; j<simpleBLEDevList[i].UUID.Len; j++)
                    LOG("0x%02X,",simpleBLEDevList[i].UUID.Value[j]);

                LOG("\n");
            }

            if( simpleBLEDevList[i].ConnIntervalRange.ConnMin != 0)
            {
                LOG("simpleBLEDevList.ConnIntervalRange.ConnMin 0x%04X,Max 0x%04X\n",\
                    simpleBLEDevList[i].ConnIntervalRange.ConnMin,simpleBLEDevList[i].ConnIntervalRange.ConnMax);
            }

            if( simpleBLEDevList[i].ManufactureData.Length )
            {
                LOG("simpleBLEDevList.ManufactureData Data :");

                for(unsigned char k = 0; k< simpleBLEDevList[i].ManufactureData.Length; k++)
                    LOG("0x%02X,",simpleBLEDevList[i].ManufactureData.Value[k]);

                LOG("\n");
            }

            LOG("\r\n\r\n");
        }

        osal_set_event(simpleBLETaskId,CENTRAL_DISCOVER_DEVDONE_EVT);
    }
    break;

    case GAP_LINK_ESTABLISHED_EVENT:
    {
        AT_LOG("\n== GAP_LINK_ESTABLISHED_EVENT ==\r\n");

        if ( pEvent->gap.hdr.status == SUCCESS )
        {
            simpleBLEState = BLE_STATE_CONNECTED;
            simpleBLEConnHandle = pEvent->linkCmpl.connectionHandle;
            HCI_PPLUS_ConnEventDoneNoticeCmd(simpleBLETaskId, NULL);
            s_linkActiveDuration=osal_getClock();

            //--------------------------------------------------------------------------------------
            //MTU Size Exchange
            if(mtu>23)
            {
                ATT_SetMTUSizeMax(mtu);
                attExchangeMTUReq_t pReq;
                pReq.clientRxMTU = mtu;
                uint8 status =GATT_ExchangeMTU(simpleBLEConnHandle,&pReq, simpleBLETaskId);
                LOG( "[MTU Req]%d %d\n",status,pReq.clientRxMTU);
            }
            else
            {
                ATT_SetMTUSizeMax(23);
            }

            //-------------------------------------------------------------------------------------
            // DLE
            llInitFeatureSetDLE(FALSE);

            if(dleTxOctets>27)
            {
                llInitFeatureSetDLE(TRUE);
                osal_start_timerEx( simpleBLETaskId, UPD_DATA_LENGTH_EVT, 100 );
            }

            //-------------------------------------------------------------------------------------
            //phy update
            HCI_LE_SetDefaultPhyMode(0,0x03,0x01,0x01);
            llInitFeatureSet2MPHY(FALSE);

            if(phyModeCtrl !=0x01)
            {
                llInitFeatureSet2MPHY(TRUE);
                HCI_LE_SetDefaultPhyMode(0,0x00,0x03,0x03);
                osal_start_timerEx( simpleBLETaskId, UPD_PHY_MODE_EVT, 300 );
            }

            HCI_LE_ReadRemoteUsedFeaturesCmd(simpleBLEConnHandle);
            HCI_ReadRemoteVersionInfoCmd(simpleBLEConnHandle);
            osal_start_timerEx( simpleBLETaskId, START_DISCOVERY_SERVICE_EVT, \
                                DEFAULT_SVC_DISCOVERY_DELAY );
            //GAPCentralRole_StartRssi( 0, DEFAULT_RSSI_PERIOD );
        }
        else if(pEvent->gap.hdr.status==LL_STATUS_WARNING_WAITING_LLIRQ)
        {
            AT_LOG( "[WAITING LL_IRQ]. " );
            AT_LOG( "Reason: 0x%02x\r\n", pEvent->gap.hdr.status);
            GAPCentralRole_EstablishLink(   DEFAULT_LINK_HIGH_DUTY_CYCLE,\
                                            DEFAULT_LINK_WHITE_LIST,\
                                            simpleBlePeerTarget.addrType, \
                                            simpleBlePeerTarget.addr );
        }
        else
        {
            simpleBLEState = BLE_STATE_IDLE;
            simpleBLEConnHandle = GAP_CONNHANDLE_INIT;
            simpleBLEDiscState = BLE_DISC_STATE_IDLE;
            osal_start_timerEx( simpleBLETaskId, CENTRAL_INIT_DONE_EVT, \
                                1000 );
        }

        #if(DEBUG_INFO)
        extern void ll_dbg_show(void);
        ll_dbg_show();
        #endif
    }
    break;

    case GAP_LINK_TERMINATED_EVENT:
    {
        simpleBLEState = BLE_STATE_IDLE;
        simpleBLEConnHandle = GAP_CONNHANDLE_INIT;
        simpleBLEDiscState = BLE_DISC_STATE_IDLE;
        simpleBleGapBondState = BLE_GapBond_IDLE;
        s_linkActiveDuration = osal_getClock()-s_linkActiveDuration;
        AT_LOG("[TVEC] LinkActiveDura %08d sec DISC.R[0x%2x]\n",s_linkActiveDuration,pEvent->linkTerminate.reason);
        check_PerStatsProcess();
        AT_LOG("[PMCNT] rdErr %d rstErr %d trgErr %d\n",g_pmCounters.ll_rfifo_read_err,g_pmCounters.ll_rfifo_rst_err,g_pmCounters.ll_trigger_err);
        // Terminate Link , memset SimpleGattScanServer structure
        osal_memset(&SimpleClientInfo,0,sizeof(SimpleGattScanServer));
        osal_memset(simpleBLEDevList,0,sizeof(SimpleClientADV_ScanData)*DEFAULT_MAX_SCAN_RES);
        osal_start_timerEx( simpleBLETaskId, CENTRAL_INIT_DONE_EVT, \
                            1*1000 );
        osal_stop_timerEx( simpleBLETaskId, START_CHAR_DATA_TEST);
        osal_stop_timerEx( simpleBLETaskId, SBC_DISCOVERY_SERVICE_TO_EVT);
        GAPCentralRole_CancelRssi( 0 );
        rwnTestCnt=0;
        #if(DEBUG_INFO)
        extern void ll_dbg_show(void);
        ll_dbg_show();
        #endif
    }
    break;

    case GAP_LINK_PARAM_UPDATE_EVENT:
    {
        LOG( "Server Request for Param Update\r\n");
    }
    break;

    default:
        LOG(" simpleBLECentralEventCB --> pEvent->gap.opcode: 0x%02X\r\n", pEvent->gap.opcode);
        break;
    }
}

/*********************************************************************
    @fn      pairStateCB

    @brief   Pairing state callback.

    @return  none
*/
static void simpleBLECentralPairStateCB( uint16 connHandle, uint8 state, uint8 status )
{
    LOG("simpleBLECentralPairStateCB in param state 0x%02X,status 0x%02X\r\n",state,status);

    if ( state == GAPBOND_PAIRING_STATE_STARTED )
    {
        simpleBleGapBondState = BLE_GapBond_Starting;
        LOG( "Pairing started\n" );
    }
    else if ( state == GAPBOND_PAIRING_STATE_COMPLETE )
    {
        if ( status == SUCCESS )
        {
            simpleBleGapBondState = BLE_GapBond_Paring_OK;
            LOG( "Pairing success\n" );
        }
        else
        {
            simpleBleGapBondState = BLE_GapBond_Paring_FAIL;
            LOG( "Pairing fail\n" );
        }
    }
    else if ( state == GAPBOND_PAIRING_STATE_BONDED )
    {
        if ( status == SUCCESS )
        {
            simpleBleGapBondState = BLE_GapBond_Bond_OK;
            LOG( "Bonding success\n" );
        }
        else
        {
            simpleBleGapBondState = BLE_GapBond_Bond_FAIL;
            LOG( "Bonding fail\n" );
        }
    }
}

/*********************************************************************
    @fn      simpleBLECentralPasscodeCB

    @brief   Passcode callback.

    @return  none
*/
static void simpleBLECentralPasscodeCB( uint8* deviceAddr, uint16 connectionHandle,
                                        uint8 uiInputs, uint8 uiOutputs )
{
    LOG("simpleBLECentralPasscodeCB\r\n");
    uint32  passcode;
    passcode=DEFAULT_PASSCODE;
    GAPBondMgr_PasscodeRsp( connectionHandle, SUCCESS, passcode );
}

/*********************************************************************
    @fn      simpleBLECentralStartDiscoveryService

    @brief   Start service discovery.

    @return  none
*/
static void simpleBLECentralStartDiscoveryService( void )
{
    // add by zhufei.zhang 2018.10.25
    // before start discovery , memset the variable
    osal_memset(&SimpleClientInfo,0,sizeof(SimpleGattScanServer));
    volatile uint8 uuid[ATT_BT_UUID_SIZE] = { LO_UINT16(SIMPLEPROFILE_SERV_UUID),
                                              HI_UINT16(SIMPLEPROFILE_SERV_UUID)
                                            };
    simpleBLEDiscState = BLE_DISC_STATE_SVC;
    // Discovery simple BLE service
    uint8_t ret = GATT_DiscAllPrimaryServices(simpleBLEConnHandle,simpleBLETaskId);
    LOG("==>simpleBLECentralStartDiscoveryService  st %d\n",ret);

    if(ret!=SUCCESS)
    {
        uint32 retry_dly = 1000;//ms
        osal_start_timerEx( simpleBLETaskId, START_DISCOVERY_SERVICE_EVT, retry_dly);
        LOG("Retry sdp after %d ms\n",retry_dly);
    }

    //osal_start_timerEx( simpleBLETaskId, SBC_DISCOVERY_SERVICE_TO_EVT,6000 );
}

/*********************************************************************
    @fn      simpleBLEGATTDiscoveryEvent

    @brief   Process GATT discovery event

    @return  none
*/
static void simpleBLEGATTDiscoveryEvent( gattMsgEvent_t* pMsg )
{
    volatile attReadByTypeReq_t req;

    if ( simpleBLEDiscState == BLE_DISC_STATE_SVC )
    {
        // add by zhufei.zhang 2018/10/24
        if( ( pMsg->method ==  ATT_READ_BY_GRP_TYPE_RSP) &&
                ( pMsg->msg.readByGrpTypeRsp.numGrps > 0 ) )
        {
            for(unsigned char i = 0 ; i < pMsg->msg.readByGrpTypeRsp.numGrps; i++)
            {
                // Current Attribute LEN
                SimpleClientInfo.ServerGroupService[SimpleClientInfo.PrimaryServiceCnt].Attribute_Data_Len = \
                        pMsg->msg.readByGrpTypeRsp.len;
                // Current Attribute Handle
                SimpleClientInfo.ServerGroupService[SimpleClientInfo.PrimaryServiceCnt].Attribute_StartHandle = \
                        BUILD_UINT16(   pMsg->msg.readByGrpTypeRsp.dataList[pMsg->msg.readByGrpTypeRsp.len * i], \
                                        pMsg->msg.readByGrpTypeRsp.dataList[pMsg->msg.readByGrpTypeRsp.len * i + 1]);
                // Current Attribute End Group Handle
                SimpleClientInfo.ServerGroupService[SimpleClientInfo.PrimaryServiceCnt].End_Group_Handle = \
                        BUILD_UINT16(   pMsg->msg.readByGrpTypeRsp.dataList[pMsg->msg.readByGrpTypeRsp.len * i+2], \
                                        pMsg->msg.readByGrpTypeRsp.dataList[pMsg->msg.readByGrpTypeRsp.len * i + 3]);
                // Caculate Primary Service UUID Length
                SimpleClientInfo.ServerGroupService[SimpleClientInfo.PrimaryServiceCnt].UUID_Len = \
                        pMsg->msg.readByGrpTypeRsp.len - 4;
                // Copy UUID
                osal_memcpy(SimpleClientInfo.ServerGroupService[SimpleClientInfo.PrimaryServiceCnt].UUID,\
                            &(pMsg->msg.readByGrpTypeRsp.dataList[pMsg->msg.readByGrpTypeRsp.len * i + 4]),\
                            SimpleClientInfo.ServerGroupService[SimpleClientInfo.PrimaryServiceCnt].UUID_Len);
                // Primary Service Count Index ++
                SimpleClientInfo.PrimaryServiceCnt++;
            }
        }
        else if ( ( pMsg->method == ATT_READ_BY_GRP_TYPE_RSP  &&
                    pMsg->hdr.status == bleProcedureComplete ) ||
                  ( pMsg->method == ATT_ERROR_RSP ) )
        {
            // Primary Service Discover OK , Prepare Discover Characteristic
            simpleBLEDiscState = BLE_DISC_STATE_CHAR;

            if( SimpleClientInfo.PrimaryServiceCnt > 0 )
            {
                // Characteristic Find Index Init
                SimpleClientInfo.PrimaryCharacIndex = 0;
                SimpleClientInfo.CharacFindIndex = 0;
                GATT_DiscAllChars(  simpleBLEConnHandle,
                                    SimpleClientInfo.ServerGroupService[SimpleClientInfo.PrimaryCharacIndex].Attribute_StartHandle,\
                                    SimpleClientInfo.ServerGroupService[SimpleClientInfo.PrimaryCharacIndex].End_Group_Handle,
                                    simpleBLETaskId );
            }
        }
    }
    else if ( simpleBLEDiscState == BLE_DISC_STATE_CHAR )
    {
        // Characteristic found, store handle
        if ( pMsg->method == ATT_READ_BY_TYPE_RSP &&
                pMsg->msg.readByTypeRsp.numPairs > 0 )
        {
            // Iterate through all three pairs found.
            for(unsigned char i = 0; i < pMsg->msg.readByTypeRsp.numPairs ; i++)
            {
                // Extract the starting handle, ending handle, and UUID of the current characteristic.
                // characteristic Handle
                SimpleClientInfo.ServerGroupService[SimpleClientInfo.PrimaryCharacIndex].Characteristic[SimpleClientInfo.CharacFindIndex].charStartHandle = \
                        BUILD_UINT16(   pMsg->msg.readByTypeRsp.dataList[pMsg->msg.readByTypeRsp.len * i], \
                                        pMsg->msg.readByTypeRsp.dataList[pMsg->msg.readByTypeRsp.len * i + 1]);
                // Characteristic Properties
                SimpleClientInfo.ServerGroupService[SimpleClientInfo.PrimaryCharacIndex].Characteristic[SimpleClientInfo.CharacFindIndex].Properties = \
                        pMsg->msg.readByTypeRsp.dataList[pMsg->msg.readByTypeRsp.len * i + 2];
                // Characteristic UUID
                SimpleClientInfo.ServerGroupService[SimpleClientInfo.PrimaryCharacIndex].Characteristic[SimpleClientInfo.CharacFindIndex].charUuid = \
                        BUILD_UINT16(   pMsg->msg.readByTypeRsp.dataList[pMsg->msg.readByTypeRsp.len * i + 5], \
                                        pMsg->msg.readByTypeRsp.dataList[pMsg->msg.readByTypeRsp.len * i + 6]);
                SimpleClientInfo.CharacFindIndex++;
            }
        }
        else if(( pMsg->method == ATT_READ_BY_TYPE_RSP  &&
                  pMsg->hdr.status == bleProcedureComplete ) ||
                ( pMsg->method == ATT_ERROR_RSP ))
        {
            SimpleClientInfo.ServerGroupService[SimpleClientInfo.PrimaryCharacIndex].CharacNum = \
                    SimpleClientInfo.CharacFindIndex;
            SimpleClientInfo.CharacFindIndex = 0;
            AT_LOG(" Service 0x%02X%02X Characteristic Find Success \r\n",\
                   SimpleClientInfo.ServerGroupService[SimpleClientInfo.PrimaryCharacIndex].UUID[1],\
                   SimpleClientInfo.ServerGroupService[SimpleClientInfo.PrimaryCharacIndex].UUID[0]);

            for(unsigned char i = 0; i< SimpleClientInfo.ServerGroupService[SimpleClientInfo.PrimaryCharacIndex].CharacNum; i++)
            {
                AT_LOG("Chars found handle is is:0x%04X,Properties is: 0x%02X,uuid is:0x%04X\r\n", \
                       SimpleClientInfo.ServerGroupService[SimpleClientInfo.PrimaryCharacIndex].Characteristic[i].charStartHandle,\
                       SimpleClientInfo.ServerGroupService[SimpleClientInfo.PrimaryCharacIndex].Characteristic[i].Properties,\
                       SimpleClientInfo.ServerGroupService[SimpleClientInfo.PrimaryCharacIndex].Characteristic[i].charUuid);
            }

            if(++SimpleClientInfo.PrimaryCharacIndex < SimpleClientInfo.PrimaryServiceCnt)
            {
                GATT_DiscAllChars(  simpleBLEConnHandle,
                                    SimpleClientInfo.ServerGroupService[SimpleClientInfo.PrimaryCharacIndex].Attribute_StartHandle,\
                                    SimpleClientInfo.ServerGroupService[SimpleClientInfo.PrimaryCharacIndex].End_Group_Handle,
                                    simpleBLETaskId );
            }
            else
            {
                AT_LOG("All Characteristic Discover Success Total PrimaryServ %d\r\n",SimpleClientInfo.PrimaryServiceCnt);
                simpleBLEDiscState = BLE_DISC_STATE_IDLE;
                #if (SBC_SBP_TEST_MODE_CFG == SBC_SBP_TEST_MODE_AUTO_RESET)

                if(simpleBleGapBondState== BLE_GapBond_Bond_OK)
                {
                    SBC_SET_ERASE_GAPBOND;
                    AT_LOG("Bonding  Success Set Erase Bonds Flag\n");
                }

                AT_LOG("system softreset....\n");
                hal_system_soft_reset();
#elif(SBC_SBP_TEST_MODE_CFG == SBC_SBP_TEST_MODE_AUTO_DISCONNET)
                AT_LOG("Set SBC_TERMINATED_CONN Evt\n");
                osal_set_event(simpleBLETaskId,SBC_TERMINATED_CONN);
                #else

                //after sdp and before  char_data_test ,trigger sla to update dle and phymode
                if(dleTxOctetsSlave>27)
                {
                    llInitFeatureSetDLE(TRUE);
                    osal_start_timerEx( simpleBLETaskId, SLA_DATA_LENGTH_EVT, 100 );
                }

                if(phyModeCtrlSlave>0)
                {
                    llInitFeatureSet2MPHY(TRUE);
                    HCI_LE_SetDefaultPhyMode(0,0x00,0x03,0x03);
                    osal_start_timerEx( simpleBLETaskId, SLA_PHY_MODE_EVT, 300 );
                }

                osal_start_timerEx( simpleBLETaskId, START_CHAR_DATA_TEST,500 );
                #endif
            }
        }
    }
    else
    {
        LOG("simpleBLEDiscState = BLE_DISC_STATE_IDLE \r\n");
    }
}

/*********************************************************************
    @fn      simpleBLECentral_CharacteristicTest

    @brief   Send Data To BLE Server

    @return  none
*/
#if 0
static void simpleBLECentral_CharacteristicTest(void)
{
    attWriteReq_t* pReq;
    attReadReq_t* pReqread;
    uint8 Val[20] = {0x00,0xC8,0x14};
    static uint8_t PrimaryServiceCnt = 0;
    static uint8_t PrimaryCharacIndex = 0;
    static uint8_t Properties = 0;
    static uint8_t SameCharacBusy = FALSE;

    if( PrimaryServiceCnt >= SimpleClientInfo.PrimaryServiceCnt )
        return;

    if( !SameCharacBusy )
    {
        if( PrimaryServiceCnt < SimpleClientInfo.PrimaryServiceCnt )
        {
            if( PrimaryCharacIndex < SimpleClientInfo.ServerGroupService[PrimaryServiceCnt].CharacNum )
            {
                Properties = SimpleClientInfo.ServerGroupService[PrimaryServiceCnt].Characteristic[PrimaryCharacIndex].Properties;
//              LOG("Should Update Properties Value \r\n");
                SameCharacBusy = TRUE;
            }
            else
            {
                PrimaryServiceCnt++;
                PrimaryCharacIndex = 0;
                LOG("Check Next Char Idx %d\n",PrimaryServiceCnt);
                osal_start_timerEx( simpleBLETaskId, START_CHAR_DATA_TEST,100 );
                return;
            }
        }
    }

    LOG("Service UUID : 0x%02X%02X, Characteristic UUID:0x%04X ,PrimaryServiceCnt %d,PrimaryCharacIndex %d,Properties 0x%02X\r\n",\
        SimpleClientInfo.ServerGroupService[PrimaryServiceCnt].UUID[1],\
        SimpleClientInfo.ServerGroupService[PrimaryServiceCnt].UUID[0],\
        SimpleClientInfo.ServerGroupService[PrimaryServiceCnt].Characteristic[PrimaryCharacIndex].charUuid,PrimaryServiceCnt,PrimaryCharacIndex,Properties);

    if( ( Properties & GATT_PROP_BCAST ) || \
            ( Properties & GATT_PROP_WRITE_NO_RSP ) || \
            ( Properties & GATT_PROP_INDICATE ) || \
            ( Properties & GATT_PROP_AUTHEN ) || \
            ( Properties & GATT_PROP_EXTENDED ))
    {
        LOG("Come Here \r\n");
        Properties &= ~(    GATT_PROP_BCAST | GATT_PROP_WRITE_NO_RSP | GATT_PROP_INDICATE | GATT_PROP_AUTHEN | \
                            GATT_PROP_EXTENDED);
        osal_start_timerEx( simpleBLETaskId, START_CHAR_DATA_TEST,100 );
    }
    else if( Properties & GATT_PROP_READ )
    {
        Properties &= ~GATT_PROP_READ;
        pReqread = osal_mem_alloc(sizeof(attReadReq_t));
        pReqread->handle = SimpleClientInfo.ServerGroupService[PrimaryServiceCnt].\
                           Characteristic[PrimaryCharacIndex].charStartHandle + Characteristic_ValueIndex;
        bStatus_t status = GATT_ReadCharValue( simpleBLEConnHandle, pReqread, simpleBLETaskId );

        if(status == SUCCESS)
        {
            LOG("GATT_ReadCharDesc success \r\n");
        }
        else
        {
            LOG("GATT_ReadCharDesc ERROR %d\r\n",status);
        }

        osal_mem_free(pReqread);
    }
    else if( Properties & GATT_PROP_WRITE )
    {
        Properties &= ~GATT_PROP_WRITE;
        pReq = osal_mem_alloc(sizeof(attWriteReq_t));
        osal_memcpy(pReq->value, Val, 3);
        pReq->sig = 0;
        pReq->cmd = 0;
        pReq->handle = SimpleClientInfo.ServerGroupService[PrimaryServiceCnt].\
                       Characteristic[PrimaryCharacIndex].charStartHandle + Characteristic_ValueIndex;

        if( PrimaryServiceCnt == 3 && PrimaryCharacIndex == 0 )
            pReq->len = 16;
        else if( PrimaryServiceCnt == 3 && (PrimaryCharacIndex > 0 && PrimaryCharacIndex < 3) )
            pReq->len = 2;
        else if( PrimaryServiceCnt == 3 && PrimaryCharacIndex == 3 )
            pReq->len = 1;
        else
            pReq->len = 3;

        bStatus_t status = GATT_WriteCharValue(simpleBLEConnHandle, pReq, simpleBLETaskId);

        if(status == SUCCESS)
        {
            LOG("GATT_WriteCharValue success \r\n");
        }
        else
        {
            LOG("GATT_WriteCharValue ERROR %d\r\n",status);
        }

        osal_mem_free(pReq);
    }
    else if( Properties & GATT_PROP_NOTIFY )
    {
        Properties &= ~GATT_PROP_NOTIFY;
        pReq = osal_mem_alloc(sizeof(attWriteReq_t));
        pReq->sig = 0;
        pReq->cmd = 0;
        pReq->handle = SimpleClientInfo.ServerGroupService[PrimaryServiceCnt].\
                       Characteristic[PrimaryCharacIndex].charStartHandle + Characteristic_NotifyIndex;
        pReq->len = 2;
        pReq->value[0] = (unsigned char)(GATT_CLIENT_CFG_NOTIFY);
        pReq->value[1] = (unsigned char)(GATT_CLIENT_CFG_NOTIFY >> 8);
        bStatus_t status = GATT_WriteCharValue(simpleBLEConnHandle, pReq, simpleBLETaskId);

        if(status == SUCCESS)
        {
            LOG("GATT_WriteCharValue Notify success \r\n");
        }
        else
        {
            LOG("GATT_WriteCharValue Notify ERROR %d\r\n",status);
        }

        osal_mem_free(pReq);
    }
    else
    {
        PrimaryCharacIndex++;
        SameCharacBusy = FALSE;
        osal_start_timerEx( simpleBLETaskId, START_CHAR_DATA_TEST,100 );
    }
}
#endif
static void simpleBLECentral_ReadWriteNotifyTest(void)
{
    attWriteReq_t* pReq;
    //attReadReq_t *pReqread;

    if(rwnTestCnt==0)
    {
        pReq = osal_mem_alloc(sizeof(attWriteReq_t));
        pReq->sig = 0;
        pReq->cmd = TRUE;
        pReq->handle = 0x2c;
        pReq->len = 2;
        pReq->value[0] = (unsigned char)(GATT_CLIENT_CFG_NOTIFY);
        pReq->value[1] = (unsigned char)(GATT_CLIENT_CFG_NOTIFY >> 8);
        bStatus_t status = GATT_WriteNoRsp(simpleBLEConnHandle, pReq);
        osal_mem_free(pReq);
    }
    else if(rwnTestCnt==1)
    {
        for(int i=0; i<3; i++)
        {
            pReq = osal_mem_alloc(sizeof(attWriteReq_t));
            pReq->sig = 0;
            pReq->cmd = TRUE;
            pReq->handle = 0x2f;
            pReq->len = 180;
            rwnTestVal[0]=0x01;
            rwnTestVal[1]+=1;
            rwnTestVal[2]=0;
            rwnTestVal[3]=0;
            rwnTestVal[4]=0x05;
            osal_memcpy(pReq->value, rwnTestVal, pReq->len );
            bStatus_t status = GATT_WriteNoRsp(simpleBLEConnHandle, pReq);
            osal_mem_free(pReq);
        }
    }

    if(rwnTestCnt==0)
    {
        rwnTestCnt=1;
    }

    osal_start_timerEx( simpleBLETaskId, START_CHAR_DATA_TEST, 500 );
}
/*********************************************************************
    @fn      simpleBLEAddDeviceInfo

    @brief   Add a device to the device discovery result list

    @return  none
*/
static void simpleBLEAddDeviceInfo( gapCentralRoleEvent_t* pEvent )
{
    const uint8_t ZeroBuf[B_ADDR_LEN]= {0,0,0,0,0,0};
    uint8_t Addr_Index=0;

    if( ( pEvent->deviceInfo.opcode != GAP_DEVICE_INFO_EVENT ) || \
            ( simpleBLEScanRes >= DEFAULT_MAX_SCAN_RES))
        return;

    // retrieve the ADDR Index
    for(uint8_t i=0; i < DEFAULT_MAX_SCAN_RES; i++)
    {
        if( ( osal_memcmp( simpleBLEDevList[i].addr, ZeroBuf, B_ADDR_LEN ) ) || \
                ( osal_memcmp( pEvent->deviceInfo.addr, simpleBLEDevList[i].addr, B_ADDR_LEN )))
        {
            Addr_Index = i;
            break;
        }
    }

    if( Addr_Index < simpleBLEScanRes)
    {
        // update simpleBLEDevList[Addr_Index]
        simpleBLEDevList[Addr_Index].rssi = pEvent->deviceInfo.rssi;

        if( !simpleBLEDevList[Addr_Index].RSP_ReadFlag )
        {
            if( pEvent->deviceInfo.eventType == GAP_ADRPT_SCAN_RSP )
            {
                // Analysis Scan RSP data
                simpleBLEAnalysisADVDATA(Addr_Index, &(pEvent->deviceInfo));
                simpleBLEDevList[Addr_Index].RSP_ReadFlag = TRUE;
            }
        }
    }
    else
    {
        // first commit simpleBLEDevList[Addr_Index]
        simpleBLEDevList[Addr_Index].rssi = pEvent->deviceInfo.rssi;
        // Mac Address Type
        simpleBLEDevList[Addr_Index].AddrType = pEvent->deviceInfo.addrType;
        // Mac Address
        osal_memcpy( simpleBLEDevList[Addr_Index].addr, pEvent->deviceInfo.addr, B_ADDR_LEN );

        if( pEvent->deviceInfo.eventType == GAP_ADRPT_ADV_IND )
        {
            // Analysis Adv data
            simpleBLEAnalysisADVDATA(Addr_Index, &(pEvent->deviceInfo));
        }

        // Increment scan result count
        simpleBLEScanRes++;
    }
}

/*********************************************************************
    @fn      simpleBLEAnalysisADVDATA

    @brief   Analysis received Advertising data and SCAN RSP Data

    @return  none
*/
static void simpleBLEAnalysisADVDATA(uint8 Index,gapDeviceInfoEvent_t* pData)
{
    int8 DataLength;
    int8 New_ADStructIndex = 0;
    int8 AD_Length = 0;
    uint8_t AD_Type;
    DataLength = pData->dataLen;

    while(DataLength)
    {
        New_ADStructIndex += AD_Length;
        // DATA FORMAT : Length + AD Type + AD Data
        //AD_Length = pData->pEvtData[pData->dataLen - DataLength];
        AD_Length = pData->pEvtData[New_ADStructIndex];
        AD_Type = pData->pEvtData[New_ADStructIndex+1];

        if(AD_Length<2 || AD_Length>0x1f)
        {
            AT_LOG("[AD_TYPE] ERR LEN %02x %02x\n",AD_Type,AD_Length);
            break;
        }

        switch(AD_Type)
        {
        case GAP_ADTYPE_FLAGS:
            simpleBLEDevList[Index].Flags = pData->pEvtData[New_ADStructIndex+2];
            break;

        case GAP_ADTYPE_16BIT_MORE:
        case GAP_ADTYPE_16BIT_COMPLETE:
        case GAP_ADTYPE_32BIT_MORE:
        case GAP_ADTYPE_32BIT_COMPLETE:
        case GAP_ADTYPE_128BIT_MORE:
        case GAP_ADTYPE_128BIT_COMPLETE:
            simpleBLEDevList[Index].UUID.Type = AD_Type;

            while( AD_Length - 1 - simpleBLEDevList[Index].UUID.Len)
            {
                if( ( AD_Type == GAP_ADTYPE_16BIT_MORE) || ( AD_Type == GAP_ADTYPE_16BIT_COMPLETE))
                {
                    simpleBLEDevList[Index].UUID.Len += ATT_BT_UUID_SIZE;
                }
                else if( ( AD_Type == GAP_ADTYPE_32BIT_MORE) || ( AD_Type == GAP_ADTYPE_32BIT_COMPLETE))
                {
                    simpleBLEDevList[Index].UUID.Len += ATT_BT_UUID_SIZE<<1;
                }
                else
                {
                    simpleBLEDevList[Index].UUID.Len += ATT_UUID_SIZE;
                }

                if(AD_Length< 1 + simpleBLEDevList[Index].UUID.Len)
                {
                    AT_LOG("[AD_TYPE] ERR UUID %02x %02x\n",AD_Type,AD_Length);
                    simpleBLEDevList[Index].UUID.Len = AD_Length-1;
                    break;
                }
            }

            osal_memcpy(    simpleBLEDevList[Index].UUID.Value,\
                            &(pData->pEvtData[New_ADStructIndex+2]),\
                            simpleBLEDevList[Index].UUID.Len);
            break;

        case GAP_ADTYPE_LOCAL_NAME_SHORT:
        case GAP_ADTYPE_LOCAL_NAME_COMPLETE:
            simpleBLEDevList[Index].LocalName.Type = AD_Type;
            simpleBLEDevList[Index].LocalName.Length = AD_Length - 1;
            osal_memcpy(    simpleBLEDevList[Index].LocalName.Value,&(pData->pEvtData[New_ADStructIndex+2]),\
                            simpleBLEDevList[Index].LocalName.Length);
            break;

        case GAP_ADTYPE_POWER_LEVEL:
            simpleBLEDevList[Index].TxPower = pData->pEvtData[New_ADStructIndex+2];
            break;

        case GAP_ADTYPE_OOB_CLASS_OF_DEVICE:
        case GAP_ADTYPE_OOB_SIMPLE_PAIRING_HASHC:
        case GAP_ADTYPE_OOB_SIMPLE_PAIRING_RANDR:
            break;

        case GAP_ADTYPE_SM_TK:
            break;

        case GAP_ADTYPE_SM_OOB_FLAG:
            break;

        case GAP_ADTYPE_SLAVE_CONN_INTERVAL_RANGE:
            simpleBLEDevList[Index].ConnIntervalRange.ConnMin = BUILD_UINT16(pData->pEvtData[New_ADStructIndex+2],\
                                                                             pData->pEvtData[New_ADStructIndex+3]);
            simpleBLEDevList[Index].ConnIntervalRange.ConnMax = BUILD_UINT16(pData->pEvtData[New_ADStructIndex+4],\
                                                                             pData->pEvtData[New_ADStructIndex+5]);
            break;

        case GAP_ADTYPE_SIGNED_DATA:
            break;

        case GAP_ADTYPE_SERVICES_LIST_16BIT:
        case GAP_ADTYPE_SERVICES_LIST_128BIT:
            simpleBLEDevList[Index].ServiceSolicitation.Type = AD_Type;

            if( AD_Type ==  GAP_ADTYPE_SERVICES_LIST_16BIT)
                simpleBLEDevList[Index].ServiceSolicitation.Len = ATT_BT_UUID_SIZE;
            else
                simpleBLEDevList[Index].ServiceSolicitation.Len = ATT_UUID_SIZE;

            osal_memcpy(    simpleBLEDevList[Index].ServiceSolicitation.Value,\
                            &(pData->pEvtData[New_ADStructIndex+2]),\
                            simpleBLEDevList[Index].ServiceSolicitation.Len);
            break;

        case GAP_ADTYPE_SERVICE_DATA:
            break;

        case GAP_ADTYPE_APPEARANCE:
            break;

        case GAP_ADTYPE_MANUFACTURER_SPECIFIC:
            simpleBLEDevList[Index].ManufactureData.Length = AD_Length - 1;
            osal_memcpy(simpleBLEDevList[Index].ManufactureData.Value,&(pData->pEvtData[New_ADStructIndex+2]),\
                        simpleBLEDevList[Index].ManufactureData.Length);
            break;

        default:
            break;
        }

        AD_Length++;
        DataLength -= AD_Length;
    }
}

/*********************************************************************
    @fn      bdAddr2Str

    @brief   Convert Bluetooth address to string

    @return  none
*/
char* bdAddr2Str( uint8* pAddr )
{
    uint8       i;
    char        hex[] = "0123456789ABCDEF";
    static char str[B_ADDR_STR_LEN];
    char*        pStr = str;
//  *pStr++ = '0';
//  *pStr++ = 'x';
    // Start from end of addr
    pAddr += B_ADDR_LEN;

    for ( i = B_ADDR_LEN; i > 0; i-- )
    {
        *pStr++ = hex[*--pAddr >> 4];
        *pStr++ = hex[*pAddr & 0x0F];
    }

    *pStr = 0;
    return str;
}

static void simpleBLECentral_DiscoverDevice(void)
{
    simpleBLEScanRes = simpleBLEScanIdx = 0;
    osal_memset(simpleBLEDevList,0,sizeof(SimpleClientADV_ScanData)*DEFAULT_MAX_SCAN_RES);
    bStatus_t stu = GAPCentralRole_StartDiscovery( DEFAULT_DISCOVERY_MODE,
                                                   TRUE/*DEFAULT_DISCOVERY_ACTIVE_SCAN*/,      // passive scan
                                                   FALSE/*DEFAULT_DISCOVERY_WHITE_LIST*/ );
    AT_LOG("simpleBLECentral_DiscoverDevice Return Value :%d\n",stu);
}

static void simpleBLECentral_LinkDevice_Direct(uint8_t p_Type,uint8_t p_addr[])
{
    uint8_t    peer_AddrType;
    uint8_t    peer_addr[B_ADDR_LEN];
    peer_AddrType=p_Type;
    osal_memcpy(peer_addr,p_addr,B_ADDR_LEN);
    AT_LOG("Start EstablishLink Direct!!! \r\n");
    simpleBLEState = BLE_STATE_CONNECTING;
    // Note: if the peer addrType is not PUBLIC, the MSB of peerAddr will be adjusted by function gapAddAddrAdj()
    GAPCentralRole_EstablishLink(   DEFAULT_LINK_HIGH_DUTY_CYCLE,\
                                    DEFAULT_LINK_WHITE_LIST,\
                                    peer_AddrType, \
                                    peer_addr);
}

static void simpleBLECentral_LinkDevice(void)
{
    int8 Index=-1;
    LOG("simpleBLECentral_LinkDevice simpleBLEScanRes: %d\n",simpleBLEScanRes);

    if ( simpleBLEScanRes > 0 )
    {
        for(uint8_t i = 0; i< simpleBLEScanRes; i++)
        {
            if(findDevByName)
            {
                if(simpleBLEDevList[i].LocalName.Length==osal_strlen((char*)peerDeviceName))
                {
                    if(osal_memcmp(simpleBLEDevList[i].LocalName.Value,peerDeviceName, simpleBLEDevList[i].LocalName.Length))
                    {
                        Index = i;
                        break;
                    }
                }
            }
            else
            {
                if(osal_memcmp(simpleBLEDevList[i].addr,simpleBlePeerTarget.addr, B_ADDR_LEN))
                {
                    Index = i;
                    break;
                }
            }
        }
    }

//  Index=-1;
    AT_LOG("simpleBLEScanRes %d,Index %d\r\n",simpleBLEScanRes,Index);

    if( Index >= 0)
    {
        AT_LOG("Start EstablishLink \r\n");
        simpleBLEState = BLE_STATE_CONNECTING;
        // Note: if the peer addrType is not PUBLIC, the MSB of peerAddr will be adjusted by function gapAddAddrAdj()
        GAPCentralRole_EstablishLink(   DEFAULT_LINK_HIGH_DUTY_CYCLE,\
                                        DEFAULT_LINK_WHITE_LIST,\
                                        simpleBLEDevList[Index].AddrType, \
                                        simpleBLEDevList[Index].addr );
    }
    else
    {
        AT_LOG("simpleBlePeerTarget Device Not found \r\n");
        osal_start_timerEx( simpleBLETaskId, CENTRAL_INIT_DONE_EVT, \
                            2*1000 );
    }
}

void check_PerStatsProcess(void)
{
    perStats_t perStats;
    uint16 perRxNumTotal=0;
    uint16 perRxCrcErrTotal=0;
    uint16 perTxNumTotal=0;
    uint16 perTxAckTotal=0;
    uint16 perRxToCntTotal=0;
    uint16 perConnEvtTotal=0;
    LOG("[PER STATS Notify]\r");
    LOG("----- ch connN rxNum rxCrc rxToN txAck txRty \r");

    for(uint8 i=0; i<37; i++)
    {
        LL_PLUS_PerStasReadByChn(i,&perStats);
        LOG("[PER] %02d %05d %05d %05d %05d %05d %05d\n",i,perStats.connEvtCnt,
            perStats.rxNumPkts,
            perStats.rxNumCrcErr,
            perStats.rxToCnt,
            perStats.TxNumAck,
            perStats.txNumRetry);
        perConnEvtTotal+= perStats.connEvtCnt;
        perRxNumTotal+= perStats.rxNumPkts;
        perRxCrcErrTotal+= perStats.rxNumCrcErr;
        perRxToCntTotal+= perStats.rxToCnt;
        perTxAckTotal+= perStats.TxNumAck;
        perTxNumTotal+= perStats.txNumRetry;
    }

    LOG("TOTAL ch connN rxNum rxCrc rxToN txAck txRty \r");
    LOG("\n[PER] -- %05d %05d %05d %05d %05d %05d\n",perConnEvtTotal,
        perRxNumTotal,
        perRxCrcErrTotal,
        perRxToCntTotal,
        perTxAckTotal,
        perTxNumTotal);
    LL_PLUS_PerStatsReset();
}



/*********************************************************************
*********************************************************************/

